As the demand for marine ecological protection and resource development continues to grow, the application of magnetic sensors in the digital ocean has become a research focus. Using photolithography and magnetron sputtering techniques, GMI thin film samples based on NiFe multilayer composite structures were fabricated, and high-sensitivity GMI sensors were developed. To test the GMI effect of the samples, an experimental test platform was set up using a vector network analyzer, analyzing the impedance variation rate with changes in driving frequency and applied magnetic field. The results showed that the impedance variation rate of the NiFe samples under the longitudinal GMI effect was significantly higher than that under the transverse GMI effect. Ultimately, GMI thin-film devices with a sensitivity of 13.5%/Oe were successfully developed. These micro-sized, highly sensitive GMI sensors provide new solutions for applications in digital ocean monitoring and security intelligent sensor networks.